Copper in PDB, part 35 (files: 1361-1400),
PDB 5nlp-5ogg
Experimental structures of coordination spheres of Copper (Cu) in bioorganic
molecules from X-Ray and NMR experiments. Coordination spheres were calculated with 5.0 Angstroms radius
around Copper atoms. PDB files: 1361-1400 (PDB 5nlp-5ogg).
-
5nlp (Cu: 1) - Auxiliary Activity 9
-
5nlq (Cu: 1) - Auxiliary Activity 9
Other atoms:
Cl (6);
-
5nlr (Cu: 1) - Auxiliary Activity 9
Other atoms:
Cl (15);
-
5nls (Cu: 1) - Auxiliary Activity 9
Other atoms:
Cl (4);
Na (1);
-
5nlt (Cu: 6) - CVAA9A
-
5nns (Cu: 2) - Crystal Structure of HILPMO9B
Other atoms:
Na (1);
-
5nq7 (Cu: 4) - Crystal Structure of Laccases From Pycnoporus Sanguineus, Izoform I
-
5nq8 (Cu: 4) - Crystal Structure of Laccases From Pycnoporus Sanguineus, Izoform II
Other atoms:
Na (2);
-
5nq9 (Cu: 12) - Crystal Structure of Laccases From Pycnoporus Sanguineus, Izoform II, Monoclinic
-
5nqm (Cu: 4) - Cu(I)-CSP3 (Copper Storage Protein 3) From Methylosinus
Other atoms:
Na (1);
-
5nqn (Cu: 18) - Cu(I)-CSP3 (Copper Storage Protein 3) From Methylosinus
Other atoms:
Na (1);
-
5nqo (Cu: 22) - Cu(I)-CSP3 (Copper Storage Protein 3) From Methylosinus
Other atoms:
Na (1);
-
5ns5 (Cu: 2) - Cys-Gly Dipeptidase Glij in Complex with CU2+ and ZN2+
Other atoms:
Cl (3);
Zn (2);
-
5o2w (Cu: 1) - Extended Catalytic Domain of Hypocrea Jecorina Lpmo 9A.
-
5o2x (Cu: 1) - Extended Catalytic Domain of H. Jecorina LPMO9A A.K.A EG4
-
5o3k (Cu: 40) - Crystal Structure of Mutant M54L/M64L/M96L of Two-Domain Laccase From Streptomyces Griseoflavus with 1 Mm Copper Sulfate on Growth Medium
-
5o4i (Cu: 45) - Crystal Structure of Mutant M54L/M64L/M96L of Two-Domain Laccase From Streptomyces Griseoflavus Dialyzed Against Solution Containing 0.25 Mm Copper Sulfate
-
5o4q (Cu: 24) - Crystal Structure of Mutant M54L/M64L/M96L of Two-Domain Laccase From Streptomyces Griseoflavus with 0.25 Mm Copper Sulfate on Growth Medium
-
5oae (Cu: 4) - Crystal Structure of Tyrosinase From Bacillus Megaterium with Svf Inhibitor in the Active Site
Other atoms:
F (2);
-
5obo (Cu: 2) - Crystal Structure of Nitrite Bound D97N Mutant of Three-Domain Heme-Cu Nitrite Reductase From Ralstonia Pickettii
Other atoms:
Fe (1);
-
5ocb (Cu: 2) - Crystal Structure of Nitric Oxide Bound D97N Mutant of Three-Domain Heme-Cu Nitrite Reductase From Ralstonia Pickettii
Other atoms:
Fe (1);
-
5ocf (Cu: 2) - Crystal Structure of Nitric Oxide Bound to Three-Domain Heme-Cu Nitrite Reductase From Ralstonia Pickettii
Other atoms:
Fe (1);
-
5oex (Cu: 15) - Complex with Iodine Ion For Thiocyanate Dehydrogenase From Thioalkalivibrio Paradoxus
Other atoms:
I (8);
-
5of5 (Cu: 2) - Cu Nitrite Reductase Serial Data at Varying Temperatures
-
5of6 (Cu: 2) - Cu Nitrite Reductase Serial Data at Varying Temperatures 190K 0.48MGY
-
5of7 (Cu: 2) - Cu Nitrite Reductase Serial Data at Varying Temperatures 190K 0.48MGY
-
5of8 (Cu: 2) - Cu Nitrite Reductase Serial Data at Varying Temperatures 190K 0.48MGY
-
5ofc (Cu: 2) - Cu Nitrite Reductase Serial Data at Varying Temperatures 190K 21.65MGY
-
5ofd (Cu: 2) - Cu Nitrite Reductase Serial Data at Varying Temperatures 190K 0.48MGY
-
5ofe (Cu: 2) - Cu Nitrite Reductase Serial Data at Varying Temperatures 190K 0.48MGY
-
5off (Cu: 2) - Cu Nitrite Reductase Serial Data at Varying Temperatures Rt 0.03MGY
-
5ofg (Cu: 2) - Cu Nitrite Reductase Serial Data at Varying Temperatures Rt 0.06MGY
-
5ofh (Cu: 2) - Cu Nitrite Reductase Serial Data at Varying Temperatures Rt 0.15MGY
-
5og2 (Cu: 2) - Cu Nitrite Reductase Serial Data at Varying Temperatures Rt 0.09MGY
-
5og3 (Cu: 2) - Cu Nitrite Reductase Serial Data at Varying Temperatures Rt 0.15MGY
-
5og4 (Cu: 2) - Cu Nitrite Reductase Serial Data at Varying Temperatures Rt 0.18MGY
-
5og5 (Cu: 2) - Cu Nitrite Reductase Serial Data at Varying Temperatures Rt 0.21MGY
-
5og6 (Cu: 2) - Cu Nitrite Reductase Serial Data at Varying Temperatures Rt 0.24MGY
-
5ogf (Cu: 2) - Cu Nitrite Reductase Serial Data at Varying Temperatures Rt 0.27MGY
-
5ogg (Cu: 2) - Cu Nitrite Reductase Serial Data at Varying Temperatures Rt 0.30MGY
Page generated: Sat Sep 28 19:53:53 2024
|